Exercise devices – Involving user translation or physical simulation thereof – Bicycling
Reexamination Certificate
2000-03-24
2002-11-26
Donnelly, Jerome W. (Department: 3764)
Exercise devices
Involving user translation or physical simulation thereof
Bicycling
C482S057000
Reexamination Certificate
active
06485397
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a brake arrangement for a magnetic or an electric ergometer according to the preamble of claim
1
. Such an ergometer can be made e.g. of an ergometer bike.
BACKGROUND OF THE INVENTION
Different ergometers and particularly ergometer bikes have for years been the best way of measuring a person's condition and oxygen uptake. These arrangements usually comprise a frame, two pedals, a power transmission system, a rotating member and a brake arrangement. The brake arrangement included the ergometer bike preferably comprises a mechanical friction system or a magnetic or an electric eddy-current brake.
Prior art brake arrangements are provided to affect the rotating member, e.g. a flywheel, which is driven by the power transmission system. The rotation of the flywheel is slowed down e.g. mechanically by a brake band placed against the outer circumference of the flywheel. The friction force between the flywheel and the brake band can be varied by tightening or loosening the brake band in respect of the outer circumference of the flywheel. In that case the braking force and the force needed to drive the power transmission system vary.
An eddy-current brake similarly comprises a rotating member which is at least partially made of or coated with a conductive material or magnetic means. Other magnetic members are mounted e.g. in the frame, their distance from the rotating member being adjustable. The magnetic members mounted in the frame generate, together with the rotating member, eddy-currents which slow down the speed of the rotating member. By increasing or decreasing the distance between the magnetic members mounted in the frame and the rotating member, the braking force and the force needed to drive the power transmission system can be varied.
An ergometer bike used for testing persons must be, in addition to the brake arrangement, provided with a measuring device which facilitates reading of the braking force and the load. The arrangement also needs to be accurate, reliable and easy to calibrate. This is the only way of obtaining reliable and comparable test results.
In an ergometer bike which comprises a friction-type brake arrangement the resistance of the brake band can be adjusted e.g. by providing it with a pendulum-type counterweight. The counterweight is usually arranged so that an increase in the tension of the brake band in respect of the flywheel's outer circumference can be directly read from the pendulum motion of the counterweight. Usually an increase in the load rises the pendulum from its rest position. This solution is utilized e.g. in ergometer bikes produced by Monark.
A disadvantage of the solution described above is that it is difficult to adjust the friction resistance of the flywheel accurately. Furthermore, the friction coefficient between the flywheel and the braking band may change during the test either because of the increased temperature of the braking band or because of the speed of the flywheel. This means that a brake arrangement provided with a friction brake and a counterweight must be adjusted continuously during a test. Such continuous adjustment naturally has a considerable effect on the test result.
A further disadvantage of a brake arrangement based on friction is related to the user friendliness of the ergometer bike. Brake arrangement of this kind is relatively loud, which is irritating both to the person who is to be tested and for the personnel carrying out the test. In addition, the function of an ergometer bike provided with a brake arrangement based on friction is uneven and abrupt.
In normal exercise bikes magnetic and electric brake systems replaced the brake arrangement based on friction for a long time ago. The friction-type bikes described above are, however, still used as test apparatuses because they are relatively easy to calibrate and because the load can be read with sufficient accuracy from the position of the counterweight.
Compared to the arrangement with a braking band, the brake arrangement of the eddy-current type functions very smoothly and silently. A disadvantage of this arrangement is, however, that it is difficult to calibrate the load of power transmission accurately enough. The characteristics of electric and magnetic resistance which is used in the arrangement may also change in the course of time. Since brake arrangements of this type are usually built in the frame of the ergometer bicycle, the arrangement can be calibrated only with special tools designed for this particular purpose.
Because of the problems and costs related to calibration, it is usually performed only once a year. If a calibration error is found during the calibration process, it is impossible to know when the error occurred. In the worst case all the test results obtained since the previous calibration are completely useless.
In scientific research it is usually necessary to control the calibration of the equipment every day, for which reason the electric and magnetic brake systems have not become more common, but several tests and test series are still carried out using ergometer bikes provided with brake arrangements of the friction type regardless of their deficiencies in respect of the user friendliness.
BRIEF DESCRIPTION OF THE INVENTION
The present invention considerably reduces the problems related to the prior art solutions, user friendliness, accuracy of reading the load force and calibration of electric or magnetic brake arrangements in ergometers.
The object of the present invention is to enable controlling of the calibration of the ergometer even every day. The present invention provides an ergometer which has the user friendliness of electric and magnetic brake arrangements and the calibration of the brake arrangement is as simple as the calibration of a brake arrangement based on friction.
The solution to the above-mentioned problems has been achieved by the present invention which has the characteristics disclosed in the claims. An arrangement of the present invention is characterized by what is disclosed in the characterising part of claim
1
.
The preferred embodiments of the invention are disclosed in the dependent claims.
In connection with the present invention an ergometer means a system for measuring and evaluating the condition of a person to be tested. An ergometer can be attached to a bicycle, a manually operated hand bike, a rowing machine or a stepper.
Compared to the prior art, this arrangement provides several considerable advantages. The load force of the ergometer can be read much more accurately with an arrangement according to the invention. In an ergometer provided with an electric brake arrangement the load force is often measured directly with a force sensor which requires an amplifier enabling reading. In the brake arrangement according to the invention a high deviation can be obtained with the pendulum of the arrangement even with slight changes in the amount of force.
When a force sensor is used for measuring the load force, the measuring signal is given in millivolts. Thus the threshold for interference is very low. For example, the use of a mobile phone near the force sensor can cause interference sufficient for influencing the measuring result, which leads to an unnecessary repetition of the test carried out. In a brake arrangement comprising a pendulum system the changes in the angle of the pendulum can be measured e.g. with an ordinary potientiometer, in which case the measuring signal is always given in volts, which makes the system in practice immune to external interference.
A brake arrangement according to the present invention is also very inexpensive to produce because the deviation of the pendulum can be measured directly with a simple mechanical measuring device, a simple potientiometer or with an accelerometer which are considerably cheaper than a force sensor which is needed in the other electric brake arrangements.
The calibration of an ergometer according to the present invention can be controlled in a simple manner virtua
Donnelly Jerome W.
McDonnell & Boehnen Hulbert & Berghoff
Nguyen Tam
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